What we do and why

The Electronic Colloquium on Computational Complexity is a new forum for the rapid and widespread interchange of ideas, techniques, and research in computational complexity. The purpose of this Colloquium is to use electronic media for scientific communication and discussions in the computational complexity community. The Electronic Colloquium on Computational Complexity (ECCC) welcomes papers, short notes and surveys with

relevance to the theory of computation,

clear mathematical profile and

strictly mathematical format.

Central topics

models of computation and their complexity,

trade-off results,

complexity bounds (with the emphasis on lower bounds).

Specific areas including complexity issues are

combinatorics,

communication complexity,

cryptography,

combinatorial optimization,

complexity of learning algorithms,

logic.

More reading

Here are some papers on the idea and concept of electronic colloquia and ECCC.

ECCC Archive DVD 2013

191 reports have been published on ECCC in 2013. The collection of all these reports is now available on DVD. You can order the archive (and also the archive DVDs from earlier years) at the local office. Please email < href="mailto:eccc@eccc.hpi-web.de">eccc@eccc.hpi-web.de for ordering.

4th March 2013 09:03

ECCC Archive DVD 2012

In 2012 we had a total count of 186 published reports on ECCC. The collection of all the reports from 2012 is now available on DVD. You can order the archive (and also the archive DVDs from earlier years) at the local office. Please email to eccc@eccc.hpi-web.de for ordering.

6th March 2012 12:04

ECCC Archive DVD 2011

In 2011 we had a total count of 174 published reports on ECCC. The collection of all the reports from 2011 is now available on DVD. You can order the archive (and also the archive DVDs from earlier years) at the local office.
Please email to eccc@eccc.hpi-web.de for ordering.

Abstract. The old intuitive question "what does the machine think" atdifferent stages of its computation is examined. Our paper is based onthe formal de nitions and results which are collected in the branchingprogram theory around the intuitive question "what does the programknow about the contents of ...
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Does the information complexity of a function equal its communication complexity? We examine whether any currently known techniques might be used to show a separation between the two notions. Recently, Ganor et al. provided such a separation in the distributional setting for a specific input distribution ?. We show that ...
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Constant parallel-time cryptography allows to perform complex cryptographic tasks at an ultimate level of parallelism, namely, by local functions that each of their output bits depend on a constant number of input bits. A natural way to obtain local cryptographic constructions is to use \emph{random local functions} in which each ...
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